1) FOREWORD
The control panel HYDRA N can be used to control 1 or 2 PHEBE N series actuators,
which are designed to automate overhead doors of various kinds.
The panel can be:
-
Built into the PHEBE N series Fig. A Ref.1.
-
Fitted in wall-mounted panel to be used for the series with no built-in control
panel (PHEBE N SQ series) Fig. A Ref.2.
When wanting to automate an overhead door with two motors, there are 2 con-
figuration options:
- 1 PHEBE N/HYDRA N + 1 PHEBE N SQ Fig.H Ref.1
- 2 PHEBE N SQ + 1 HYDRA N QSG with panel, wall mounted Fig.H Ref.3.
It comes from the factory with standard operating settings. Any change must
be made using the programmer with built-in display or universal handheld
programmer. The control panel fully supports EELINK protocol.
Features of the HYDRA N panel:
-
manages one or two 24V
motors + slow-down settable in distance and
speed.
-
transmitter management
-
provision for operation with commands via local and central hardwired con-
trollers.
2) TECHNICAL SPECIFICATIONS
Power supply
Low voltage/mains insulation
Operating temperature range
Dielectric rigidity
Motor output current
Motor relay switching current
Maximum motor power
Accessories power supply
gate open light
Flashing light
Dimensions
N° of combinations
Max. n° of transmitters that can be
memorized
(* other voltages to order)
Usable transmitter versions:
All ROLLING CODE transmitters compatible with:
3) TUBE ARRANGEMENT FIG.B
Install the electrical system referring to the standards in force for electrical
systems CEI 64-8, IEC 364, harmonization document HD 384 and other national
standards.
4) TERMINAL BOARD WIRING Fig. C
WARNING! For connection to the mains power supply, use a multicore cable
with a cross-section of at least 3x1.5mm
regulations in force.
To connect the motors, use a cable with a cross-section of at least 1.5mm
the kind provided for by the regulations in force. By way of example, if the
cable is run outside (unprotected), it must be at least type H07RN-F, while if
it is run inside (in a raceway), it must be at least type H05 VV-F.
TERMINAL
DESCRIPTION
L N
Single-phase mains power 230V
Connection of motor 2 (where applicable):
1-2
1 BRAWN (+)
2 BLEU (-)
3-4
Flashing light 24V max. 25W.
5-6 Solenoid lock 24V or intermittent flashing light max. 24V 3W
5-6
(LG2 logic)
Accessories power supply (demand max. 180mA):
24 V~ operation with mains power on.
7-8
24 V
(7+,8-) operation with no mains power and optional
buffer battery kit.
Safety device power supply output (photocell transmitter and
safety edge transmitter, demand max. 180mA).
N.B.: output active only during operating cycle.
9-10
24 V~ Vsafe operation with mains power on.
24 V
(9+,10-) Vsafe operation with no mains power and op-
tional buffer battery kit.
14 - HYDRA N
INSTALLATION MANUAL
230V~ ±10% 50Hz*
> 2MOhm 500V
-10 / +55°C
rete/bt 3750V~ for 1 minute
7.5A+7.5A max
10A
168W per motor
24V~ (demand max. 180mA)
NO contact (24V~/1A max)
24V~ 25W max
see Fig. A
4 billion
63
2
of the kind provided for by the
~
±10%
https://appceso.com
Free contact (NO).
Gate Open Light SCA (24V ~max. 3W) or 2nd radio channel
11-12
output.
This option can be set via the "logic menu".
13-14
START control button and key-operated selector (NO).
13-15
STOP control button (NC). If not used, leave jumpered.
13-16
PHOT input. Input photocells, if not used leave jumpered.
FAULT input (N.O.) Input for photocells equipped with N.O. test
17
contact Fig. J Ref. 2-3-4-5.
13-18
Motor 2 opening limit switch (SWO2)
19-20
Output for light control PHEBE N SQ Fig. H
Antenna (21 braiding -22 signal).
Use an antenna tuned to 433MHz.
Use RG58 coax cable to connect the Antenna and Receiver.
21-22
Metal bodies close to the antenna can interfere with radio recep-
tion. If the transmitter's range is limited, move the antenna to a
more suitable position.
For QSg panel version only:
TERMINAL
DESCRIPTION
23-25
Motor 1 opening limit switch (NC)
23-24
Motor 1 closing limit switch (NC)
Connection motor 1:
26-27
26 BROWN (+)
27 BLEU (-)
Transformer secondary wiring / 24V input from buffer battery
28-29
(28-,29+).
5) CONNECTION OF 1 PAIR OF NON-TESTED PHOTOCELLS Fig. D
6) MEMORIZING REMOTE CONTROLS Fig. E
7) ADJUSTING SLOW-DOWN SPEED Fig. F
8) TERMINAL BOARD WIRING PHEBE N SQ - HYDRA N Fig. H
Ref.1) Connection of 2 motors (PHEBE N/HYDRA N + 1 PHEBE N SQ)
PHEBE N SQ terminals 9 and 10 are connected or not depending on "1 mot.
on" logic (see table B)
Rif.2) Connection of 1 motor with HYDRA N in QSG
panel "1 mot. o n" logic must be ON (see table B)
Ref.3) Connection of 2 motors (HYDRA N in QSG panel + 2 PHEBE N SQ)
PHEBE N SQ (MOT.2) terminals 9 and 10 are connected or not depending
on "1 mot. o n" logic (see table B).
9) CONNECTION WITH EXPANSION BOARDS AND UNIVERSAL HANDHELD
PROGRAMMER (Fig. I)
Refer to specific manual.
9.1) Interface with WIEGAND systems via SCS-WIE module.
Refer to the SCS-WIE module's instructions.
10) TESTED PHOTOCELLS INPUT Fig. J
2
of
11) CALLING UP MENUS: FIG. 1
11.1) PARAMETERS MENU (PARA ) (Table "A" PARAMETERS)
11.2) LOGIC MENU (LOGIC) (TABLE "B" LOGIC)
11.3) RADIO MENU (radio) (TABLE "C" RADIO)
-
IMPORTANT NOTE: THE FIRST TRANSMITTER MEMORIZED MUST BE
IDENTIFIED BY ATTACHING THE KEY LABEL (MASTER).
In the event of manual programming, the first transmitter assigns the RECEIVER'S
KEY CODE: this code is required to subsequently clone the radio transmitters.
The Clonix built-in on-board receiver also has a number of important advanced
features:
•
Cloning of master transmitter (rolling code or fixed code)
•
Cloning to replace transmitters already entered in receiver
•
Transmitter database management
•
Receiver community management
To use these advanced features, refer to the universal handheld programmer's
instructions and to the CLONIX Programming guide, which come with the uni-
versal handheld programmer device.
11.4) LANGUAGE MENU (lingua)
Used to set the programmer's language on the display.